Content

THEORETICAL CONCEPTS

BASIC CONCEPTS 

Chapter 1. Essential concepts.

Biochemistry: definition and objectives. Chemistry elements of living beings. Type of biomolecule bonds. Free energy or Gibbs energy. The importance of weak interactions in biology. Water structure and properties. Concepts of pH and pKa. 

BIOMOLECULES: STRUCTURE AND FUNCTION 

Chapter 2. Amino acids and peptide bond. 

Type of protein and function. Amino acids classification and properties. Peptide bond. Amino acid sequence and protein composition: primary and secondary structure. Sequence comparison and protein evolution. 

Chapter 3. Proteins.

Level of protein structure. Secondary structure: Alpha helix, beta strands, beta turn. Tertiary structure: fiber and globular proteins. Quaternary structure. Protein folding and determinant factors. Conformational diseases. 

Chapter 4. Carbohydrates.

Monosaccharide: aldose, ketose and isomers. Glycosidic bond. Disaccharide and polysaccharides. Glycoconjugate: proteoglycans, glycoproteins, and glycolipids. Carbohydrate as Information molecules. The sugar code.

Chapter 5. Nucleic acids.

Nucleotides. Primary structure of nucleic acids. Secondary structure of DNA: Watson and Crick model and alternative structure. Nucleic acid ternary structure: tRNA and DNA supercoil. Chromosome organization.

Chapter 6. Function and protein evolution: oxygen transport proteins. 

Oxygen store: myoglobin. Oxygen transport: hemoglobin: Allosteric and cooperative binding. Protein evolution examples. Different hemoglobin shapes: physiologic adaptation and molecular pathology. 

Chapter 7. Enzymes, enzymatic kinetics, and regulation. 

Nature and function. Classification and nomenclature of the enzymes. Catalytic effect in chemistry reactions. Enzymatic mechanism. Enzymatic cofactors. Enzymatic inhibition: allosteric, covalent modification. Biomedical and biotechnological applications.

Chapter 8. Lipids and biological membranes. 

Lipid types and function. Structure and function of lipoprotein. Biological membranes. 

METABOLISM

Chapter 9. Introduction to metabolism. 

Metabolism: concept, organization and types. Biochemistry and thermodynamic reactions: Free energy in the biological process. ATP and other rich energy compounds. Oxidation-reduction biological reactions and electrons transporter. Metabolic process regulation. 

Chapter 10. Biosignaling.

Properties of the transduction signal mechanism. Eukaryotic signal transduction system: main receptors. Introduction to signal transduction in prokaryotic. 

Chapter 11. Carbohydrates metabolism.

Glycolysis. Lactic and alcoholic fermentation. Pentose phosphate pathway. Gluconeogenesis. Synthesis and degradation of glycogen. Carbohydrate Metabolism regulation. 

Chapter 12. Principal path Oxidant metabolism. 

Acetyl-CoA synthesis. Acid citric cycle. Anaplerotic reactions. Glyoxylate cycle. 

Chapter 13. Energy transduction: oxidative phosphorylation and photosynthesis. 

Chemiosmotic coupling. Mitochondrial electron transport chain and oxidative phosphorylation. Photosynthetic transport chain and phosphorylation. CO2 assimilation (Calvin cycle). Introduction to respiratory chain in bacterial photosystems.

Chapter 14. Lipid catabolism and nitrogen compounds bases. 

Triacylglycerol and lipoprotein mobilization. Beta-oxidation of fat acids. Ketogenesis. Nitrogen cycleand urea cycle. 

PROBLEM-BASED CONCEPTS

During seminars, we will solve different problems from the following topics previously studied in the subject: 

- pH and buffer systems (Part 1),

- Macromolecules purification and characterization (Part 2),

- Kinetic enzymology (Part 3),

- Gibbs energy and equilibrium constant (Part 4),

- Reduction potential and redox reactions (Part 5).

The problems and exercises will be delivered through Campus Virtual during the course.